JP2013520145A - How to communicate over a wireless communication network - Google Patents

Abstract

  The present invention provides a method for communicating in a wireless communication network (206), wherein the wireless communication network includes a plurality of base stations (102, 104) and at least one mobile communication unit (100), wherein the mobile communication unit Includes a transmit / receive component (300), a first Doppler compensation component (108), and a measurement component (110), wherein the first Doppler compensation component includes a base station and a transmit / receive component of the plurality of base stations. Are adapted to compensate for Doppler shifts of the signals exchanged between (1, 2, 7, 11, 12, 13). For user equipment moving at high speed, a handover procedure between two base stations is possible.

Description

  The present invention relates to a method of communicating in a wireless communication network, and more particularly to a method of communicating with a user equipment moving at high speed in a wireless communication network.

  With current standards for mobile communications, particularly 3GPP Long Term Evolution (LTE), wireless communications can accommodate user equipment speeds of about 350 km per hour.

  In particular, the handover mechanism does not work properly for user equipment moving faster than 350 km per hour, for example in airplanes or trains. According to the LTE standard, such a fast moving user equipment handover can only be performed from one cell of one base station to another cell served by the same base station. Handover from a first cell served by a first base station to a second cell served by a second base station is not possible with such fast moving user equipment .

  K. Dimour et al., “Handover with 3GPP LTE: Design Principles and Performance” (09/23/2009) investigates the performance of handover procedures in 3GPP LTE in terms of HO failure rate and overall procedure delay. doing. System level simulation within a typical urban propagation environment is disclosed using different user equipment (UE) speed, cell radius, and traffic load from cell to cell.

K. Dimuu, “Handover with 3GPP LTE: Design Principles and Performance”, September 23, 2009

  It is an object of the present invention to provide an improved method for communicating over a wireless communication network. This object is achieved by the method according to independent claim 1. Embodiments of the invention are set out in the dependent claims.

  The present invention provides a method of communicating in a wireless communication network, the wireless communication network including a plurality of base stations and at least one mobile communication unit. The mobile communication unit may be, for example, an airplane or train onboard unit. The mobile communication unit is adapted to communicate with a plurality of base stations. The mobile communication unit is further adaptable to communicate with the user equipment. The user equipment may be, for example, a mobile phone, portable computer, PDA, or other mobile communication device.

  The mobile communication unit includes a transmit / receive component, a first Doppler compensation component, and a measurement component. The first Doppler compensation component is adapted to compensate for Doppler shift of signals exchanged between one of the plurality of base stations and the transmit / receive component.

  In the first step, data is exchanged between the transmit / receive component and a first base station of the plurality of base stations. In the case of handover, this first base station is also referred to as a source base station. The first Doppler compensation component compensates for the Doppler shift of the signal carrying data by using the first Doppler compensation value. Doppler compensation is necessary due to the moving speed of the mobile communication unit.

  The Doppler shift depends on the speed of the mobile communication unit and the direction of the signal carrying the data.

  In the second step, the measurement is initiated by transmitting a first signal from the transmit / receive component to the measurement component.

  In response to the first signal, the measurement component transmits a second signal to the transmit / receive component. The second signal indicates a measurement related to at least one second base station of the plurality of base stations. In the case of a handover procedure, one of the at least one second base station is also referred to as the target base station.

  A measurement report is then transmitted from the transmit / receive component to the first base station. The measurement report includes measurement values of measurements performed by the measurement component.

  Subsequently, the first base station determines whether a handover procedure to the target base station of at least one second base station is initiated by the first base station. This step is performed in a manner similar to a handover decision according to the LTE standard. Therefore, the measurement report transmitted from the transceiver component to the first base station follows the LTE standard.

  If the first base station decides to perform a handover procedure to the target base station, a third signal is transmitted from the first base station to the transmit / receive component. The third signal indicates the start of the handover procedure. This step is also performed according to the LTE standard. Note that each step performed by the first base station or at least one second base station is compliant with the LTE standard. Thus, a base station adapted to perform a handover procedure according to the LTE standard is also naturally adapted to perform a handover procedure according to the present invention.

  After receiving the third signal, the transmit / receive component transmits the fourth signal to the measurement component. The fourth signal indicates the target base station. Note that this step and the following two method steps are performed only if the first base station decides to perform a handover procedure to the target base station. Thus, by receiving the fourth signal, the measurement component is aware of the initiated handover procedure from the source base station to the target base station.

  The measurement component then transmits a fifth signal to the first Doppler compensation component. The fifth signal indicates changing the first Doppler compensation value to the second Doppler compensation value. The second Doppler compensation value is adapted to compensate for the Doppler shift of signals exchanged between the transmit / receive component and the target base station. In the case of a mobile communication unit moving at a high speed exceeding 350 km / h, the second Doppler compensation value is significantly different from the first Doppler compensation value.

  As the last step of this embodiment of the invention, the handover procedure is performed from the source base station to the target base station when the first base station decides to perform the handover procedure.

  According to an embodiment of the present invention, the measurement component is in the position data of the mobile communication unit, the direction and speed of movement of the mobile communication unit, the position data of multiple base stations, and / or the radiation direction of the antennas of multiple base stations. Calculate the measurement value of the measurement report based on it. This means that the measurement component does not actually measure the signal strength and / or signal quality of the signals being exchanged between the mobile communication unit and the plurality of base stations. Indeed, in these embodiments, the measurement component estimates the signal strength and / or signal power of signals exchanged between the mobile communication unit and the plurality of base stations. Such a measurement can be referred to as a fake measurement because the measured value is not actually measured but is only estimated. In this case, no signals are exchanged between the at least one second base station and the mobile communication unit.

  The position data can be acquired by a satellite navigation system such as GPS. For airplanes, usually a satellite navigation system already exists and only needs to be connected to a mobile communication unit according to an embodiment of the present invention in order to provide location data to the mobile communication unit.

  The reason this is advantageous is that it is not actually necessary to measure the signals exchanged between the mobile communication unit and the multiple base stations in order to decide whether or not to perform a handover procedure. . Another advantage is that the measurement report sent from the transmit / receive component to the first base station is compliant with the LTE standard so that the first base station does not recognize that no actual measurement was performed. It is. Doppler of signals exchanged between the transmit / receive component and the at least one second base station since communication between the mobile communication unit and at least one second base station of the plurality of base stations is not required・ There is no need to compensate for shifts. Thus, by using a false measurement of the measurement component, a handover can be performed from the source base station to the target base station for mobile communication units with a moving speed in excess of 350 km per hour.

  The actual measurement of the signal quality and signal strength exchanged between the transmit / receive component and the at least one second base station is due to the large difference in Doppler shift compensation values, so that mobile communications at speeds exceeding 350 km / h Units are not possible with the LTE standard. Embodiments of the present invention are particularly advantageous in mobile communication units that are moving at speeds between 800-1200 km per hour. In this speed range, when the mobile communication unit moves directly from the source base station to the target base station, the Doppler shift compensation value is, for example, minus 2 kHz for the source base station and plus 2 kHz for the target base station. It is. Accordingly, embodiments of the present invention are particularly advantageous in a direct air-to-ground (DA2G) system, where the mobile communication unit of the aircraft is served by a ground base station, which is the LTE standard. Is a general base station of a mobile communication network conforming to

  Since estimation of the Doppler shift compensation value cannot be performed based on the pilot symbols of the signal, a typical mobile communication unit is responsible for signals exchanged between the transmit / receive component and at least one second base station. Measurement cannot be performed.

According to embodiments of the present invention, the measurement component may be expected timing advance and / or expected of signals exchanged between the transmit / receive component and at least one second base station. A measurement is calculated based on path loss and / or expected signal-to-noise ratio of signals exchanged between the transmit / receive component and the at least one second base station, or a combination thereof. This means that the measurement values in the measurement report can be determined by using mobile communication unit and multiple base station location data, free space propagation path loss (FSPL) formula, for example by calculating the expected path loss. It is calculated based on the moving direction and speed of the communication unit.
FSPL (dB) = 20 log ₁₀ (d) +20 log ₁₀ (f) +32.45
Here, d is a distance measured in km, and f is a frequency measured in MHz.

  According to an embodiment of the present invention, the measurement component includes a reception component and a second Doppler compensation component. The receiving component receives at least one signal from at least one second base station. The measurement component measures the signal strength and signal quality of at least one signal from at least one second base station. The measurement report includes the signal strength and signal quality of at least one signal.

  This means that the measurement component actually measures the signal strength and signal quality of at least one signal. Accordingly, the second Doppler compensation component is necessary to compensate for the Doppler shift of the signal transmitted between the transmit / receive component and the at least one second base station. The second Doppler compensation component is needed because the difference in Doppler shift is large, so that while compensating for the Doppler shift of the signal received from at least one second base station, the first Doppler compensation component This is because the Doppler shift of the signal received from the first base station cannot be compensated.

  In another aspect, the invention relates to a mobile communication unit that includes a transmit / receive component, a first Doppler compensation component, and a measurement component. The Doppler compensation component is adapted to compensate for the Doppler shift of the signal received from the base station by using the first Doppler compensation value. The measurement component includes first signal receiving means for receiving a signal from the transmitting / receiving component. The transceiver component includes a second signal receiving means for receiving a signal from the measurement component, and the Doppler compensation component includes a third signal receiving means for receiving a signal from the measurement component. The transmission / reception component further includes data transmission means and data reception means for exchanging data between the transmission / reception component and the source base station. The transmission / reception component further includes first signal transmission means for initiating measurement by transmitting a first signal from the transmission / reception component to the measurement component. The measurement component includes a second signal transmission means for transmitting a second signal from the measurement component to the transmission / reception component. The second signal indicates a measurement related to at least one second base station. The transmission / reception component includes measurement report transmission means for transmitting a measurement report from the transmission / reception component to the source base station. The measurement report includes the measurement value. The transmission / reception component further includes third signal transmission means for transmitting a fourth signal from the transmission / reception component to the measurement component. The fourth signal indicates the target base station. The measurement component further includes fourth signal transmitting means for transmitting a fifth signal from the measurement component to the first Doppler compensation component. The fifth signal indicates changing the first Doppler compensation value to the second Doppler compensation value. The second Doppler compensation value is adapted to compensate for the Doppler shift of signals exchanged between the transmit / receive component and the target base station. Accordingly, such a mobile communication unit is adapted to perform the method according to an embodiment of the present invention.

  According to an embodiment of the present invention, the mobile communication unit further includes data storage. The database is stored in data storage. The database includes multiple base station location data and / or multiple radiation directions of multiple base station antennas. The measurement component includes position data receiving means for receiving position data from the location system. The mobile communication unit includes first calculation means for calculating a measurement value of the measurement report based on the position data and the position data of the plurality of base stations and / or the plurality of radiation directions of the antennas of the plurality of base stations. In addition.

  From the data storage database, the measurement component can read multiple base station location data and / or multiple radiation directions of multiple base station antennas. Since the location system already exists in a general airplane, the position data receiving means can receive the position data from this location system. Next, the first calculation means calculates the measurement value of the fake measurement report using the data and the position data stored in the database.

  According to an embodiment of the present invention, the measurement component further includes a receiving component and a second Doppler compensation component. The second Doppler compensation component is adapted to compensate for the Doppler shift of the signal received by the receiving component. The receiving component includes fifth signal receiving means for receiving at least one signal from at least one second base station. The measurement component includes measurement means for measuring the signal strength and signal quality of at least one signal from at least one second base station. The measurement report includes the signal strength and signal quality of at least one second signal.

  In another aspect, the present invention relates to a mobile communication system including a mobile communication unit and a plurality of base stations according to embodiments of the present invention.

  In yet another aspect, the invention relates to a computer-readable storage medium comprising instructions that, when executed by a mobile communication unit, cause the mobile communication unit to perform a method for communicating with a plurality of base stations of a wireless communication network.

  The method includes exchanging data between a transmit / receive component and a source base station of the plurality of base stations. The first Doppler compensation component of the mobile communication unit compensates for the Doppler shift of the signal carrying data by using the first Doppler compensation value. The measurement is initiated by transmitting a first signal from the transmit / receive component to the measurement component. A second signal is transmitted from the measurement component to the transmit / receive component. The second signal indicates a measurement related to at least one second base station of the plurality of base stations. A measurement report is transmitted from the transmit / receive component to the source base station. The measurement report includes the measurement value. A third signal is received from the source base station by the transmit / receive component. The third signal indicates the start of the handover procedure to the target base station. Thereafter, a fourth signal is transmitted from the transmit / receive component to the measurement component. The fourth signal indicates the target base station. Subsequently, a fifth signal is transmitted from the measurement component to the first Doppler compensation component. The fifth signal indicates changing the first Doppler compensation value to the second Doppler compensation value. The second Doppler compensation value is adapted to compensate for a Doppler shift signal exchanged between the transmit / receive component and the target base station. Finally, a handover procedure from the source base station to the target base station is executed.

  In the following, by way of example only, preferred embodiments of the invention will be described with reference to the figures.

It is a figure which shows roughly the hand-over procedure from a source base station to a target base station. 1 is a schematic diagram of a mobile communication unit. FIG. 3 is a block diagram of a mobile communication unit. 2 is a flow diagram of a method for communicating over a wireless communication network.

  In these figures, elements with the same number are the same element or perform the same function. If the functions are the same, elements already described are not necessarily described in later figures.

  FIG. 1 is a schematic diagram of a handover procedure executed by a mobile communication unit 100 according to an embodiment of the present invention from a source base station 102 to a target base station 104. Mobile communication unit 100 includes a standard LTE compliant portion 106, a Doppler compensation component 108, and a measurement component 110. In the first step, the source base station 102 transmits a measurement control signal to the LTE compliant unit 106 of the mobile communication unit 100 as defined in the LTE standard. Next, the LTE compliant unit 106 transmits a false measurement control signal A to the measurement component 110. The fake measurement control signal A causes the measurement component 110 to create a fake measurement report in step B. Subsequently, a false measurement report C is transmitted from the measurement component 110 to the LTE compliant unit 106. Next, the LTE compliance unit 106 transmits the measurement report to the source base station 102 based on the false measurement report. Since communication between the source base station 102, the target base station 104, and the LTE compliant unit 106 of the mobile communication unit 100 is compliant with the LTE standard, the base stations 102 and 104 are common in a typical LTE network. Note that this is not subject to change for new base stations.

  In step 3, the source base station 102 determines whether to perform a handover procedure. If the handover procedure is to be executed, the base station 102 sends a handover request 4 to the target base station 104. Next, the target base station 104 executes admission control 5 and transmits a handover request receipt notification signal 6 to the source base station 102. Thereafter, the handover command 7 is transmitted to the LTE compliant unit 106 of the mobile communication unit 100. Next, the LTE compliant unit 106 of the mobile communication unit 100 sends a Doppler update instruction D to the measurement component 110, and then the measurement component 110 sends the Doppler compensation value from the first value to the second value to the Doppler compensation component 108. Change the compensation value. The second value is suitable for communication between the mobile communication unit 100 and the target base station 104.

  By changing the Doppler compensation value to the second Doppler compensation value, the LTE compliant unit 106 can communicate with the target base station 104. In parallel with the Doppler update process of the mobile communication unit 100, the source base station 102 starts packet transfer to the target base station 104 in Step 8, and changes the state of the mobile communication unit 100 to the target base station 104 in Step 9. Transferred to. The target base station 104 stores the packet from the source base station 102 in a buffer in step 10, and then synchronizes with the mobile communication unit 100 in step 11. Note that communication between the source base station and the target base station conforms to the LTE standard, as does communication between the target base station 104 and the LTE compliant portion 106 of the mobile communication 100. Thereafter, in step 12 and step 13, the timing advance is transmitted to the LTE compliant unit 106 of the mobile communication unit 100 in step 12, and the uplink is assigned. In step 13, the handover is confirmed by the LTE compliant unit 106 of the mobile communication unit 100. The handover is completed without interacting with the mobile communication unit 100 between the source base station 102 and the target base station 104 according to the LTE standard.

  FIG. 2 is a schematic diagram of the mobile communication unit 100. The mobile communication unit 100 can be located on an airplane for direct air-to-ground communication (DA2G), for example. The mobile communication unit 100 includes a standard LTE unit 200, a DA2G specific unit 202, and a DA2G control unit 204. The standard LTE unit 202 performs standard LTE processing steps such as signal processing, user plane processing, and control plane processing.

  The DA2G control unit 204 includes a mobility client 212, an EnB database 214, and an onboard router 216. The onboard router is adapted to receive IP user and control traffic signals from the standard LTE part 202. The onboard router 216 forwards IP user traffic received from the standard LTE unit 202 to the user 218 connected to the mobile communication unit 100. The IP control traffic signal received from the standard LTE unit 202 is forwarded to the mobility client 212 by the onboard router 216. The IP control traffic signal includes an update of the database 214, for example.

  Mobility client 212 is adapted to receive position data 220 from location system 222. The mobility client 212 is also referred to as a measurement component.

  The DA2G specific unit 200 performs Doppler compensation of a signal received from the mobile communication network 206 and a signal transmitted to the mobile communication network 206. All communications between the mobile communication network 206 and the mobile communication unit 100 need to pass through the DA2G specific part 200 for Doppler compensation. This applies to the forward link signal 208 and the reverse link signal 210, which forward from the mobile communication network 206 to the mobile communication unit 100, more specifically the standard LTE part of the mobile communication unit 100. 202. The reverse link signal 210 is directed from the mobile communication unit 100 to the mobile communication network 206, and more specifically from the standard LTE portion 202 of the mobile communication unit 100. For example, communication with such a mobile communication unit 100 by a fast moving airplane is only possible thanks to the Doppler compensation performed in the DA2G specific part 200.

  The mobile communication network 206 can request a measurement report from the mobile communication unit 100 by sending a measurement control signal to the mobile communication unit 100. The measurement control signal may indicate a single requested measurement report or periodic transmission of measurement reports. The received measurement control signal is transferred to the standard LTE unit 202 by the DA2G specific unit 200 after Doppler shift compensation. Next, the standard LTE unit 202 transmits a false measurement control signal to the DA2G control unit 204.

  After receiving the fake measurement control signal from the standard LTE unit 202, the mobility client 212 performs a fake measurement based on the data stored in the database 214. Database 214 stores the location of base stations of mobile communication network 206 in addition to antenna direction and / or cell size and cell sectorization.

  Mobility client 212 performs false measurements based on data regarding base stations of mobile communication network 206 stored in database 214 and position data 220 received from location system 222. Thus, the mobility client is aware of the location and speed of movement of the mobile communication unit 100, as well as the locations and radiation directions of multiple base stations in the mobile communication network 206. The mobility client 212 may then use, for example, a free path loss formula or a formula for calculating a timing advance for each base located around the mobile communication unit 100. Calculate the fake measurements of the station.

  After calculating the fake measurements, the mobility client 212 sends a fake measurement report to the standard LTE unit 202 that contains the fake measurements. The standard LTE unit 202 forwards this false measurement report to the DA2G specific unit 200 as a general LTE compliant measurement report, which then sends the measurement report to the base station of the mobile communication network 206. Forward.

  When the handover command is received by the standard LTE unit 202, the standard LTE unit 202 forwards the handover command to the mobility client 212 of the DA2G control unit 204. Since the mobility client 212 knows the location and speed of the mobile communication unit 100 and the location of the target base station for the handover procedure, the mobility client 212 calculates a new Doppler compensation value and creates a new Doppler compensation value. Is suitable for communication with the target base station of the handover command. Next, the mobility client 212 transmits this new Doppler compensation value to the DA2G specific unit 200 using the Doppler compensation control signal. Next, the DA2G specific unit 200 uses this new Doppler compensation value for communication with the target base station of the handover command.

  FIG. 3 is a block diagram of the mobile communication unit 100 that includes a transmit / receive component 300, a first Doppler compensation component 108, and a measurement component 110.

  The first Doppler compensation component 108 is adapted to compensate for the Doppler shift of the signal received from the base station by using the first Doppler compensation value. The measurement component 110 includes first signal receiving means 302 for receiving a signal from the transmission / reception component 300. The transmission / reception component 300 includes second signal receiving means 304 for receiving a signal from the measurement component 110. The Doppler compensation component 108 includes third signal receiving means 305 for receiving a signal from the measurement component 110.

  The transmission / reception component 300 includes data transmission means 306 and data reception means 308 for exchanging data between the transmission / reception component and a source base station (not shown). The transmission / reception component 300 further includes first signal transmission means 310 for initiating the measurement by transmitting a first signal from the transmission / reception component to the measurement component. The measurement component 110 includes second signal transmission means 312 for transmitting a second signal from the measurement component 110 to the transmission / reception component, wherein the second signal indicates a measurement value related to at least one base station.

  The mobile communication unit 100 further includes a data storage 314 that includes a database 214.

  FIG. 4 is a flow diagram of a method according to an embodiment of the invention. The method includes the following steps.

  In step S1, data is exchanged between the transmit / receive component and a first base station of the plurality of base stations, and the first Doppler compensation component uses the first Doppler compensation value to Compensates for Doppler shift in signals carrying

  In step S <b> 2, the measurement is started by transmitting a first signal from the transmission / reception component 300 to the measurement component 110. In step S3, a second signal is transmitted from the measurement component 110 to the transmit / receive component 300, which indicates a measurement related to at least one second base station of the plurality of base stations.

  In step S4, a measurement report is transmitted from the transceiver component 300 to the first base station, and the measurement report includes a measurement value of the measurement. In step S5, it is determined whether a handover procedure from the first base station to the target base station of at least one second base station is initiated by the first base station.

  In step S6, a third signal is transmitted from the first base station to the transmit / receive component 300, which indicates the start of the handover procedure. In step S7, a fourth signal is transmitted from the transceiver component 300 to the measurement component 110, the fourth signal indicating the target base station.

  In step S8, a fifth signal is transmitted from the measurement component 110 to the first Doppler compensation component 108, and the fifth signal indicates changing the first Doppler compensation value to the second Doppler compensation value. . Finally, in S9, a handover procedure from the source base station to the target base station is executed.

  Note that steps S6-S9 are only performed if the source base station decides to perform the handover procedure.

100 mobile communication unit 102 source base station 104 target base station 106 LTE compliant unit 108 Doppler compensation component 110 measurement component 200 LTE unit 202 DA2G specific unit 204 DA2G control unit 206 mobile communication network 208 forward link signal 210 reverse link signal 212 mobility Client 214 Database 216 Onboard router 218 User 220 Location data 222 Location system 300 Transmission / reception component 302 Signal reception means 304 Signal reception means 305 Signal reception means 306 Data transmission means 308 Data reception means 310 Signal transmission means 312 Signal transmission means 314 Data storage 1 Measurement control signal 2 Measurement report signal 3 Handover decision 4 c Handover request signal 5 acceptance control signal 6 handover request receipt notification signal 7 handover command signal 8 start packet transfer to target 9 state transfer 10 store packet from source in buffer 11 synchronization 12 upload assignment and timing advance 13 handover confirmation signal A false Measurement control signal B General false measurement report C False measurement report signal D Doppler update command signal

Claims (9)

A method of communicating in a wireless communication network (206), wherein the wireless communication network includes a plurality of base stations (102, 104) and at least one mobile communication unit (100), wherein the mobile communication unit is an LTE standard. The mobile communication unit includes a transmit / receive component (300), a first Doppler compensation component (108), and a measurement component (110), wherein the first communication component includes: The Doppler compensation component compensates for a Doppler shift of signals (1, 2, 7, 11, 12, 13) exchanged between one of the plurality of base stations and the transmit / receive component. In a method that is adapted to
-Exchanging data between the transceiver component and a first base station (102) of the plurality of base stations (S1), wherein the first Doppler compensation component is a first Doppler Compensating the Doppler shift of the signal carrying data by using a compensation value; and
-Starting a measurement (S2) by transmitting a first signal (A) from the transceiver component to the measurement component;
-Transmitting a second signal (C) from the measurement component to the transceiver component (S3), wherein the second signal is at least one second base station of the plurality of base stations; A step indicating a measurement value related to (104);
-Sending a measurement report from the transceiver component to the first base station (S4), wherein the measurement report includes the measurement value of the measurement;
-Determining whether a handover procedure from the first base station to the target base station (104) of the at least one second base station is initiated by the first base station (S5); ,
-Sending a third signal (7) from the first base station to the transceiver component (S6), wherein the first base station performs the handover procedure to the target base station; If so, the third signal indicates the start of the handover procedure; and
-Transmitting a fourth signal (D) from the transceiver component to the measurement component (S7), wherein the first base station determines to execute the handover procedure to the target base station; If so, the fourth signal indicates the target base station;
Sending a fifth signal from the measurement component to the first Doppler compensation component (S8), wherein the fifth signal converts the first Doppler compensation value to a second Doppler compensation value; And when the first base station decides to perform the handover procedure to the target base station, the second Doppler compensation value is determined by the transmission / reception component, the target base station, A step adapted to compensate for a Doppler shift of signals exchanged between, and
A method comprising a step (S9) of performing a handover procedure if the first base station decides to perform a handover procedure to the target base station;   The measurement component includes the measurement value of the measurement report based on the position data (220) of the mobile communication unit, a direction and speed of movement of the mobile communication unit, position data of the plurality of base stations, and / or the plurality of The method of claim 1, wherein the radiation direction of the base station antenna is calculated.   The measurement component includes an expected timing advance and / or an expected path loss of signals exchanged between the transmit / receive component and the at least one second base station, and / or the transmit / receive component. The method of claim 2, wherein the measurement is calculated based on an expected signal-to-noise ratio of a signal exchanged with the at least one second base station, or a combination thereof.   The measurement component includes a reception component and a second Doppler compensation component, the reception component receives at least one signal from the at least one second base station, and the measurement component includes the at least one first The method of claim 1, wherein signal strength and signal quality of the at least one signal are measured from two base stations, and the measurement report includes signal strength and signal quality of the at least one signal. A mobile communication unit (100) including a transmit / receive component (300), a first Doppler compensation component (108), and a measurement component (110), wherein the first Doppler compensation component provides a first Doppler compensation value. By using, the measurement component is adapted to compensate for Doppler shift of a signal received from a base station, and the measurement component includes first signal receiving means (302) for receiving a signal from the transmit / receive component The transmitting / receiving component includes second signal receiving means (304) for receiving a signal from the measurement component, and the Doppler compensation component is third signal receiving means for receiving a signal from the measurement component. (305), the mobile Shin unit is adapted to move at speeds in excess of limits that are allowed by LTE standard, the mobile communication unit,
The transmission / reception component comprises data transmission means (306) and data reception means (308) for exchanging data between the transmission / reception component and a source base station;
The transmitting / receiving component further comprises first signal transmitting means (310) for initiating a measurement by transmitting a first signal from the transmitting / receiving component to the measuring component;
The measurement component comprises second signal transmission means (312) for transmitting a second signal from the measurement component to the transmit / receive component, wherein the second signal is at least one second base station; Shows the measured values related to
The transmission / reception component includes a measurement report transmission means (306) for transmitting a measurement report from the transmission / reception component to the source base station, the measurement report including the measurement value;
The transmitting / receiving component further comprises third signal transmitting means (310) for transmitting a fourth signal from the transmitting / receiving component to the measurement component, wherein the fourth signal indicates a target base station;
The measurement component comprises fourth signal transmitting means (312) for transmitting a fifth signal from the measurement component to the first Doppler compensation component, wherein the fifth signal is the first signal Indicates changing a Doppler compensation value to a second Doppler compensation value, wherein the second Doppler compensation value is used to compensate for a Doppler shift of a signal exchanged between the transmit / receive component and a target base station. To be suitable,
Mobile communication unit.   The mobile communication unit further includes a data storage, a database stored in the data storage, wherein the database includes position data of the plurality of base stations and / or a plurality of radiation directions of the antennas of the plurality of base stations. The measurement component includes position data receiving means for receiving position data from a location system; and the position data and position data of the plurality of base stations, and / or a plurality of antennas of the plurality of base stations. The mobile communication unit according to claim 5, further comprising: a first calculation means for calculating a measurement value of the measurement report based on a radiation direction of the measurement report.   The measurement component further includes a receiving component and a second Doppler compensation component, wherein the second Doppler compensation component is adapted to compensate for a Doppler shift of a signal received by the receiving component, the receiving component Comprises fifth signal receiving means for receiving at least one signal from at least one second base station, wherein the measurement component is configured to receive the at least one signal from the at least one second base station. The mobile communication unit according to claim 5, comprising measurement means for measuring signal strength and signal quality, wherein the measurement report includes signal strength and signal quality of the at least one second signal.   A mobile communication system including the mobile communication unit according to claim 5 and a plurality of base stations. A computer readable storage medium (314) comprising instructions that, when executed by the mobile communication unit (100), cause the mobile communication unit to perform a method for communicating with a plurality of base stations (102, 104) of a wireless communication network The mobile communication unit is adapted to move at a speed exceeding a limit allowed by the LTE standard, the method comprising:
-Exchanging data between the transmit / receive component and a source base station of the plurality of base stations, wherein the first Doppler compensation component uses the first Doppler compensation value to exchange data; Compensating for the Doppler shift of the signal carrying the signal, and
Starting a measurement by transmitting a first signal from the transceiver component to the measurement component;
-Transmitting a second signal from the measurement component to the transmit / receive component, wherein the second signal comprises a measurement value related to at least one second base station of the plurality of base stations; Showing, steps,
-Transmitting a measurement report from the transceiver component to the source base station, the measurement report including the measurement value;
-Receiving a third signal from the source base station by the transceiver component, the third signal indicating the start of a handover procedure to a target base station;
-Transmitting a fourth signal from the transceiver component to the measurement component, the fourth signal indicating the target base station;
-Transmitting a fifth signal from the measurement component to the first Doppler compensation component, wherein the fifth signal changes the first Doppler compensation value to a second Doppler compensation value; Wherein the second Doppler compensation value is adapted to compensate for a Doppler shift of a signal exchanged between the transmit / receive component and the target base station; and
Performing a handover procedure from the source base station to the target base station.

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